The diffuse and channel stages in the overvoltage breakdown of a gas gap
Yu. I. Bychkov
,
Yu. D. Korolev
,
V. M. Orlovskii
Российский физический журнал,
1971,
T. 14, p. 1198–1201
https://doi.org/10.1007/BF00826866
|
1971 |
Electromagnetic investigation of discharge in air and carbon dioxide in nanosecond range
Yu. D. Korolev
,
P. A. Gavrilyuk
Российский физический журнал,
1972,
T. 15, p. 1620–1621
https://doi.org/10.1007/BF01231237
|
1972 |
Nonindependent pulsed atmospheric pressure discharge sustained by a high-energy electron beam lasting 100 μsec
Yu. I. Vychkov
,
S. A. Genkin
,
Yu. D. Korolev
,
G. A. Mesyats
,
V. G. Rabotkin
,
A. G. Filonov
Российский физический журнал,
1975,
T. 18, p. 1618–1619
https://doi.org/10.1007/BF01686426
|
1975 |
Spectral composition of the light from plasmas created by electron beams in nitrogen and He-N2 and Ne-N2 mixtures
Yu. I. Bychkov
,
Yu. D. Korolev
,
V. F. Losev
,
V. F. Tarasenko
,
A. P. Khuzeev
,
I. A. Shemyakin
Российский физический журнал,
1977,
T. 20, p. 1579–1583
https://doi.org/10.1007/BF00897426
|
1977 |
Electric field distribution in the anode layer of a non-self-maintained volumetric discharge sustained by a beam of fast electrons
Yu. D. Korolev
,
V. V. Kremnev
,
V. B. Ponomarev
Российский физический журнал,
1977,
T. 20, p. 406–409
https://doi.org/10.1007/BF00894862
|
1977 |
Transition from a non-self-sustained volume discharge maintained by a beam of fast electrons to a spark discharge
Yu. I. Bychkov
,
S. A. Genkin
,
Yu. D. Korolev
,
G. A. Mesyats
,
V. G. Rabotkin
,
A. G. Filonov
Российский физический журнал,
1978,
T. 21, p. 1375–1377
https://doi.org/10.1007/BF00894274
|
1978 |
Volume discharge excited by an electron beam in an Ar-SF6 mixture I. Beam-controlled discharge
Yu. I. Bychkov
,
Yu. D. Korolev
,
G. A. Mesyats
,
A. P. Khuzeev
,
I. A. Shemyakin
Российский физический журнал,
1978,
T. 21, p. 898–901
https://doi.org/10.1007/BF00892046
|
1978 |
Volume discharge excited by an electron beam in an Ar-SF6 mixture II. Cascade ionization discharge
Yu. I. Bychkov
,
Yu. D. Korolev
,
G. A. Mesyats
,
A. P. Khuzeev
,
I. A. Shemyakin
Российский физический журнал,
1978,
T. 21, p. 902–905
https://doi.org/10.1007/BF00892047
|
1978 |
Processes in the cathode region of a low-pressure arc discharge
A. V. Kozyrev
,
Yu. D. Korolev
,
I. A. Shemyakin
Российский физический журнал,
1994,
T. 37, p. 207–221
https://doi.org/10.1007/BF00565732
|
1994 |
Pseudospark switches for the power supply circuits of pulsed lasers
V. D. Bochkov
,
Yu. D. Korolev
,
K. Frank
,
O. B. Frants
,
I. A. Shemyakin
Российский физический журнал,
2000,
T. 43, p. 432–439
https://doi.org/10.1007/BF02508529
|
2000 |
Theory of a normal high-pressure glow discharge
V. Yu. Kozhevnikov
,
A. V. Kozyrev
,
Yu. D. Korolev
Российский физический журнал,
2006,
T. 49, p. 199–206
https://doi.org/10.1007/s11182-006-0087-8
|
2006 |
Prebreakdown Currents in a Sealed-off Two-Section Cold-Cathode Thyratron and Methods for Increasing the Breakdown Voltage
N. V. Landl
,
Yu. D. Korolev
,
V. G. Geyman
,
O. B. Frants
,
G. A. Argunov
Российский физический журнал,
2017,
T. 60, p. 1269–1276
https://doi.org/10.1007/s11182-017-1207-3
|
2017 |
An Investigation of the Electrical Strength Recovery of a Cold-Cathode Thyratron
N. V. Landl
,
Yu. D. Korolev
,
V. G. Geyman
,
O. B. Frants
Российский физический журнал,
2017,
T. 60, p. 1277–1284
https://doi.org/10.1007/s11182-017-1208-2
|
2017 |
Role of Prebreakdown Currents in a Static Breakdown of a Two-Sectioned Cold-Cathode Thyratron
Yu. D. Korolev
,
N. V. Landl
,
V. G. Geyman
,
O. B. Frants
,
G. A. Argunov
,
A. V. Bolotov
Российский физический журнал,
2019,
T. 62, p. 1269–1278
https://doi.org/10.1007/s11182-019-01844-3
|
2019 |
Special Features of Parasitic Current Formation in a Sealed-Off Cold-Cathode Thyratron with Trigger Unit Based On an Auxiliary Glow Discharge
N. V. Landl
,
Yu. D. Korolev
,
V. G. Geyman
,
O. B. Frants
,
G. A. Argunov
,
A. V. Bolotov
,
A. V. Akimov
,
P. A. Bak
Российский физический журнал,
2019,
T. 62, p. 1279–1288
https://doi.org/10.1007/s11182-019-01845-2
|
2019 |
Special Features of the Discharge Formation in the Trigger Unit Based on Breakdown Over the Semiconductor Surface in Sealed-Off Cold-Cathode Thyratron
N. V. Landl
,
Yu. D. Korolev
,
G. A. Argunov
,
V. G. Geyman
,
O. B. Frants
,
A. V. Bolotov
Российский физический журнал,
2020,
T. 63, p. 809–817
https://doi.org/10.1007/s11182-020-02102-7
|
2020 |
Discharge Development in a Saline Solution at the Above-The-Threshold Voltages
I. A. Shemyakin
,
V. S. Kasyanov
,
Yu. D. Korolev
,
N. V. Landl
,
A. V. Bolotov
Российский физический журнал,
2020,
T. 62, p. 1982–1988
https://doi.org/10.1007/s11182-020-01932-9
|
2020 |
The Regimes for Sustaining a Hollow-Cathode Glow Discharge with a Hot Filament Inside the Cavity
N. V. Landl
,
Yu. D. Korolev
,
V. G. Geyman
,
O. B. Frants
,
I. A. Shemyakin
,
V. S. Kasyanov
,
I. V. Lopatin
,
S. S. Kovalskii
Российский физический журнал,
2020,
T. 62, p. 2024–2032
https://doi.org/10.1007/s11182-020-01940-9
|
2020 |
Power Supply for Generation of Low-Temperature Plasma Jets
Yu. D. Korolev
,
V. O. Nekhoroshev
,
O. B. Frants
,
A. V. Bolotov
,
N. V. Landl
Российский физический журнал,
2020,
T. 62, p. 2052–2058
https://doi.org/10.1007/s11182-020-01944-5
|
2020 |
Plasma Maintenance Mechanisms in Large-Volume Hollow Anode
N. V. Landl
,
Yu. D. Korolev
,
I. V. Lopatin
,
O. V. Krysina
,
O. B. Frants
,
G. A. Argunov
Российский физический журнал,
2021,
T. 63, p. 1766–1772
https://doi.org/10.1007/s11182-021-02233-5
|
2021 |